Description: Convection-permitting simulations with the Weather Research and Forecasting Modeling System (WRF) were carried out in order to provide improved water vapor fields for the Upper Rhine Valley in the border region of Germany, Switzerland and France. Hourly ERA5 reanalysis data served as input for three different simulations with (1) open loop, (2) assimilation of GNSS ZTD, InSAR ZTD and synoptic station data and (3) assimilation of tomography ZTD fields. The three-dimensional variation data assimilation (3D-VAR) configuration with hourly resolution was used. The simulations were performed for four events, one in each season (April 11-22, 2016, July 13-23, 2018, October 16-31, 2018, January 6-21, 2017). Surface pressure, temperature (2m) and integrated water vapor are provided in 2D as well as pressure, temperature and water vapor density for each of the 72 vertical levels (3D).
Global identifier:
Doi(
"10.1594/PANGAEA.936446",
)
Measurements {
domain: Unspecified,
station: None,
measured_variables: [
"File content",
"Binary Object",
],
methods: [],
}
Dataset
Origins: /Wissenschaft/PANGAEA
Tags: Wasserdampf ? Daten ? Modellierung ? Atmosphäre ? Feuchtigkeit ? Tal ? Data Assimilation ? GNSS ? GURN ? InSAR ? WRF ? integrated water vapor ?
Bounding boxes: 9° .. 9° x 50° .. 50°
License: cc-by/4.0
Language: Englisch/English
Issued: 2021-09-28
Modified: 2024-04-20
Time ranges: 2021-09-28 - 2024-04-20
Accessed 1 times.